Hype, Myths, Fundamental Limits and New Directions in Wireless Systems
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1 Hype, Myths, Fundamental Limits and New Directions in Wireless Systems Reinaldo A. Valenzuela, Director, Wireless Communications Research Dept., Bell Laboratories Rutgers, December, 2007
2 Need to greatly increase rates for new apps and services. Not possible to break the laws of physics Cellular revolution from extensive coverage and mobility Universal reuse maximizes spectral efficiency Classic deployments dominated by interference (Not the case for Hot Spot, Indoor) Link performance is approximating fundamental limits Gains from smaller cells, increased spectrum and Interference cancellation Achievable Rate (bps/hz) Cell A Cell B Link B Shannon bound 3dB margin Infeasible Region Link A EV-DO/HSDPA Required SNR (db) Reuse 1 Median SINR 2 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, ##### Data rate (Mbps) with 10% user outage Increasing BW or reducing range is expensive or ineffective 3 sectors/cell, 1 antenna and user/sector +12 db Tx power or 4x cell density +6 db Tx power or 2x cell density Typical Tx power and cell density SISO Bandwidth (MHz)
3 1-D FDM ORTHOGONAL RELAYS WITHOUT REUSE K relays between source and destination at unit distance N=K+1 orthogonal channels, each gets 1/N of full system bandwidth Reuse options also explored All nodes transmit all the time Reference SNR (K = 0): Propagation loss reduction: N ρ γ Capacity (total power constant): 1/N. γ log 2 (1 + ρ N ) 1/N the power per node ρ Similar to TDM with peak power limit γ +1 Capacity (power per node constant): 1/N. log 2 (1 + ρ N ) N times total power Similar to TDM with average power limit *Bandwidth and Power Efficient Routing in Linear Wireless Networks, M. Sikora, J. N. Laneman, M. Haenggi, D.J. Costello and J. Fuja, IEEE Trans.on IT,Vol. 52 No. 6, 6/06 3 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
4 ORTHOGONAL RELAYS - Power per node constant 6 Total Power Constant Relays: Rate (Bits/Symbol) Γ γ = Reference SNR 4 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
5 ORTHOGONAL RELAYS - Total power constant 6 Total Power constant with Re use No. of Relays = Rate (Bits/Symbol) γ = Reference SNR (db) 5 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
6 ORTHOGONAL RELAYS WITH REUSE 2 Power per node constant 6 No. of Relays: 0 5 No reuse 1 2 Rate (Bits/Symbol) Reuse 2 with for 2, 3, 4, and 5 relays log2(82) = Reference SNR (db) Reuse improves performance below 3.18 b/symbol / 4 db 6 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
7 ORTHOGONAL RELAYS WITH REUSE Total power constant 6 G = 4 Number of Relays: 0 5 No reuse 1 Rate (Bits/Symbol) Reuse 2 curves for 2, 3, 4, and 5 relays 3 2.5log2(82) = Reference SNR (db) Reuse improves performance below 3.18 b/symbol / 7 db 7 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
8 Reducing out of cell interference with pico cells Increasing base station density for the same users Increases capacity per unit area At some point most neighboring cells will be idle Hardware Versus Software? (NetMIMO) approach Methodology Baseline network: Same number of users and bases Denser base deployment Number of users and geographical coverage fixed Increase base density by N along each dimension Single base detection Idle bases create a de facto guard band reducing ICI Infrastructure upgrade, hardware approach Gerard Foschini, Dmitry Chizhik, Reinaldo Valenzuela Bell Labs Yifan Liang, Andrea Goldsmith Stanford University 8 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
9 Reducing Out of Cell Interference with Net MIMO Net MIMO methodology Realistic channel models Planar array, downlink Empirical propagation models Criterion Portion q of users allowed outage Deliver equal rate to remaining users Tradeoff between rate region and complexity Dirty Paper Coding (DPC) optimal, complexity high Suboptimal schemes include Zero Forcing (ZF), ZF-DPC Characterization at system level Maintain Infrastructure Advance signal processing 9 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
10 System Topology Two dimensional planar array One user per cell (TD/FD) User location within each cell i.i.d. uniform distributed 10 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
11 Propagation Model Short-range (SR) model Mobile user in the neighborhood of the base Free-space path loss + Rayleigh P = ( λ / 4πd ) G g 2 r P t Long-range macro-cell model (Hata) Path-loss + shadowing + fading log10( Pr / Pt ) = LdB + GdB + ψ db + 10log ( g) Propagation characteristics change at Transition distance dt, i.i.d. 30~70m Cutoff distance dc, 2 3R 11 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
12 Infrastructure Upgrade N =1 N = 2 N = 3 12 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
13 Operating Regime Shift 13 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
14 CDF of SINR 14 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
15 Net MIMO: Zero-Forcing Beamforming Declare portion q of users in outage Users with smallest channel gain norms Notations Input X Precoding W Y m r 1 H m m Wm m X m 1 + Zm 1 = r t t r r r Channel H Output Y Noise Z H m m Wm m = r t ZF: NO ICI t r I 15 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
16 Power Optimization for ZF Criterion: max min received SNR ρ i = P i / N 0 Subject to per-antenna power constraint m r i= 1 W ji 2 P i P max, for 1 j m t Solution P i = P ZF = max j P max m r i= 1 W ji 2 16 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
17 Zero-Forcing Dirty Paper Coding Interference totally eliminated through Orthogonal constraint Dirty paper coding Declare portion q of users in outage Users with smallest channel gain norms Specify encoding order Heuristic algorithm proposed in view of fairness 17 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
18 Optimization for ZF-DPC Channel QR decomposition H = LQ Precoding matrix W = Q Receive signal y = HX + z = LQQ x + z = Lx + z Criterion: max min received SNR Subject to per-antenna power constraint L ii 2 P i N 0 Solution P i = P ZFDPC 2 L ii = max P j max m r i= 1 L W ii ji 2 / L ii 2 18 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
19 Comparison: Pico Cells Vs. Net MIMO Target: max min SINR at outage level q Under a realistic channel model Denser deployment outperforms ZF when N >= 4 Close-tooptimal ZF-DPC outperforms denser deployment 19 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
20 Network MIMO: Potential performance gains Throughput (bps/hz/base) Uplink: Users to Bases Downlink: Bases to Users Factor of 5 (1,1) (2,2) (4,4) (1,1) (2,2) (4,4) Conventional: SU MIMO, no coordination Network MIMO (Base antennas, terminal antennas) Up to a factor of 5 capacity gain using network MIMO under ideal conditions. What gains could be achieved in practice? [R. Valenzuela department] 20 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
21 Summary: MIMO strategies Recommended strategy Cellular network type SU MIMO techniques MU MIMO techniques Urban macrocell with reduced frequency reuse and peak rate is more important than throughput (6-sectors + SU-MIMO (SM)) Urban macrocell with universal frequency reuse (6-sectors + MU-MIMO (ZF-BF)) Suburban macrocell (adaptive BF for increasing throughput) Rural macrocell (adaptive BF for increasing range) Network MIMO Cluster of cells with high-speed backhaul (indoor femtocell network or future macrocell network) 21 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
22 Concluding remarks Next generation systems must deliver a significant and cost effective performance improvement Increasing Bandwidth hits battery power limits Reducing cell size or increasing Tx power may be too expensive Relay help with coverage at low spectral efficiency Network MIMO may deliver substantial performance gains: Initial uplink results are promising: Median goodput more than doubled. 5-fold increase in cell edge (90% availability) goodput. Results show that network MIMO is viable within constraints of WiMAX. In particular, channel estimation not a problem indoors (but real test will be outdoors). 22 Presentation Title Month 2006 All Rights Reserved Alcatel-Lucent 2006, #####
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